首页|A kilohertz bandwidth and sensitive scalar atomic magnetometer using an optical multipass cell
A kilohertz bandwidth and sensitive scalar atomic magnetometer using an optical multipass cell
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NSTL
Elsevier
? 2022 Elsevier LtdHigh-frequency ultraweak magnetic field measurements are essential. We demonstrate a scalar rubidium atomic magnetometer with effective measurement bandwidth of kilohertz and sensitivity of subpicotesla operating at a temperature of 365 K in an ambient field of 50 μT. The Faraday rotation signal is enhanced by a more simplified optical multipass cell compared to previous works. We developed an approach of continuous or burst sampling mode to maximize the frequency capability of the system, and propose a scheme of precise control pulse series as well as an analytical methods of data processing. Experimental results show that high contrast atomic spin projection noise and free induction decay signal are observed, and a sampling rate of 2 kHz along with the sensitivity of 0.7 pT/Hz1/2 between 20 and 1000 Hz have been achieved. It would help further research in physics and biomedical investigations that need high bandwidth magnetometers or sensor arrays in the earth's field.
Atomic magnetometerHigh bandwidthMultipass cellWeak magnetic field
Li S.、Dai P.、Liu J.、Jin M.、Tetteh Akiti K.、Xu Z.、Eric-Theophilus Nwodom T.
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Department of Measurement and Control Technology Zhejiang University of Science and Technology
Key Institute of Robotics Industry of Zhejiang Province
NSTL
Elsevier
